Monday, September 29, 2014

ESO VLT: Hosting unique intergalactic GPS instrument to map the stars

Artist's impression of the MOONS instrument. Credit: STFC

A €9M contract is announced today for Scottish engineers and designers to build a unique and powerful instrument that aims to tackle some of the most compelling astronomical puzzles, such as how stars and galaxies form and evolve, and probing the structure of our own Milky Way.

Building such an ambitious and powerful new device, which will be about the size of a transit van, will take around 200 staff-years of effort, with the hardware alone costing €9M.

The full project will cost around €23M. The ATC will lead the Project Office managing the multinational consortium that will construct MOONS, and will also play a vital design role for key components and ensure the project's benefits extend throughout UK industry.

ESO's VLT platform. (Credit: ESO)

Like any spectrograph, MOONS will use the colour of light emitted by objects to reveal their chemical composition, mass, speed and other properties.

Breaking new ground by simultaneously observing 1000 objects using fibre-optic cables to feed their visible and infrared light into the instrument, it will survey large samples of objects far faster than any existing instrument and conduct surveys that would be virtually impossible using today's technologies.

Not surprisingly, the design will pose extraordinary technical demands. For example, each of the 1000-plus fibres will have to move into position very quickly, with great accuracy and without colliding with each other.

The ATC will develop the most innovative component, the individual motorised systems allowing each fibre to move rapidly into position; it will also develop the cryostat system (used to cool MOONS down to -170°C) vital to enabling the infrared observations needed to penetrate galactic and intergalactic dust clouds.

The University of Cambridge will take the credit for developing complex cameras capable of meeting the instrument's demanding performance requirements.

Partnerships with a range of UK equipment suppliers will also contribute across the project, helping the UK to further strengthen its cutting-edge scientific capabilities in the relevant fields.